CN219942856U - Zinc salicylate resin cooling equipment - Google Patents

Abstract

The utility model belongs to the technical field of zinc salicylate resin preparation, in particular to zinc salicylate resin cooling equipment, which comprises a supporting frame, wherein a cylinder body is arranged on the supporting frame, two groups of quantitative components are arranged at the top end of the cylinder body, each quantitative component comprises a feeding pipe, a feeding pipe penetrates through the feeding pipe, the feeding pipe slides in the inner cavity of the feeding pipe, an electromagnetic valve is arranged on the feeding pipe, a quantitative box is arranged at the top end of the feeding pipe, a feeding groove is formed in the top plate of the quantitative box, a fixing frame is arranged on the top plate of the cylinder body, a storage box is arranged on the fixing frame, a liquid inlet pipe is arranged on the top plate of the storage box, a liquid outlet pipe is arranged at the bottom end of the storage box and is positioned right above the feeding groove of the quantitative box.

Description

Zinc salicylate resin cooling equipment

Technical Field

The utility model relates to the technical field of zinc salicylate resin preparation, in particular to zinc salicylate resin cooling equipment.

Background

The zinc salicylate is prepared by heating sodium salicylate and zinc sulfate in water, and then the sodium salicylate and the zinc sulfate are added into a color developing agent to be used as a preservative, wherein the dosage of the preservative is required to depend on the capacity of the mixed color developing agent, and zinc salicylate resin cooling equipment is required to be used in the production process of the color developing agent of the zinc salicylate resin.

The zinc salicylate resin cooling device consists of a steam chamber, a condensing chamber, a stirring rod and other structures, sodium salicylate and zinc sulfate are poured into the steam chamber to be stirred for full reaction, steam is generated after heating, and then the steam is condensed and collected through the condensing chamber, so that the zinc salicylate resin is prepared.

The existing zinc salicylate is prepared by heating sodium salicylate and zinc sulfate in water, and the cooling equipment cannot rapidly and accurately add the dosage of raw materials, so that the adding efficiency of the raw materials is low, and the overall preparation efficiency of zinc salicylate resin is affected; therefore, a zinc salicylate resin cooling apparatus is proposed for the above problems.

Disclosure of Invention

In order to make up the defects of the prior art and solve the problems existing in the prior art, the utility model provides zinc salicylate resin cooling equipment.

The technical scheme adopted for solving the technical problems is as follows: the zinc salicylate resin cooling equipment comprises a support frame, wherein a cylinder body is arranged on the support frame, two groups of quantitative components are arranged at the top end of the cylinder body, each quantitative component comprises a feed pipe, a feed pipe penetrates through the feed pipe, the feed pipe slides in the cavity of the feed pipe, an electromagnetic valve is arranged on the feed pipe, a quantitative box is arranged at the top end of the feed pipe, a feed chute is formed in a top plate of the quantitative box, a fixing frame is arranged on the top plate of the cylinder body, a storage box is arranged on the fixing frame, a liquid inlet pipe is arranged on the top plate of the storage box, a liquid outlet pipe is arranged at the bottom end of the storage box and is in a square structure, the liquid outlet pipe is positioned right above the feed chute of the quantitative box, a first guide plate is arranged on the top plate of the quantitative box, the first guide plate is provided with a first chute which is in a cross structure, the first sliding groove is internally provided with a first sliding block, one end of the first sliding block is welded with a material blocking box, a moving groove is formed in the material blocking box, a baffle is arranged in the moving groove, a first spring is arranged between the baffle and the inner wall of the moving groove, a liquid outlet pipe is arranged at the front end of the baffle, the area of the liquid outlet pipe is larger than that of the liquid outlet pipe orifice, raw materials in the material storage box are poured into a quantitative box from the liquid outlet pipe, the whole weight of the quantitative box is increased, the whole quantitative box vertically slides downwards, the material blocking box on a top plate of the quantitative box slides downwards together until the material blocking box moves to the lower part of the liquid outlet pipe, the baffle slides forwards under the pushing of the first spring to block the orifice of the liquid outlet pipe, at the moment, the quantitative box stops moving downwards, the electromagnetic valve is electrified, the raw materials enter the evaporation chamber from a material guide pipe, quantitative pouring of the raw materials is realized, two quantitative components are arranged, the sodium salicylate raw material and the zinc sulfate raw material can be respectively quantitatively arranged, so that the accurate addition of the dosage of the raw materials is realized, and the preparation efficiency of the zinc salicylate resin is improved.

Preferably, a groove is formed in the side wall of the material blocking box, a pushing block is assembled in the groove, the pushing block is fixedly connected with the side wall of the baffle, the baffle is pushed back into the material blocking box by pushing the pushing block, and the empty quantitative box moves upwards under the pushing force of the second spring, so that the next use is realized, and the recycling is facilitated.

Preferably, the mounting plate is welded on the top end of the first guide plate, the screw rod is rotatably mounted between the cylinder top plate and the mounting plate through the bearing, the screw rod penetrates through the first sliding block, threads are formed on the first sliding block and slide in a matched manner through the threads, the knob is welded on the top end of the screw rod, the screw rod rotates through the screw rod, the screw rod drives the first sliding block to vertically slide in the first guide plate, the first sliding block drives the material blocking box to move in the vertical direction, the adjustment of the relative position of the material blocking box and the first guide plate is realized, the adjustment of the raw material dosage is realized, and the quick adjustment of the raw material dosage is facilitated.

Preferably, a second guide plate is arranged on the cylinder body top plate, a second sliding groove is arranged in the second guide plate, a second sliding block is assembled in the second sliding groove, the second sliding block is fixedly connected with the quantitative box, a second spring is welded between the quantitative box bottom plate and the cylinder body top plate, the second spring is sleeved on the periphery of the material guiding pipe, the second sliding block on the quantitative box slides in the second guide plate, stable sliding of the quantitative box is realized, and the stability of the quantitative box is improved.

Preferably, the motor is installed on the cylinder body roof, the output shaft of motor runs through the cylinder body roof and has the puddler through shaft coupling fixed mounting, install the stirring leaf on the puddler, the stirring leaf is auger structure, rotates through the puddler, and the puddler drives the stirring leaf and stirs, because the stirring leaf is auger structure, the raw materials that is located the bottom can remove the eminence, has still carried out vertical stirring when horizontal stirring, has realized intensive mixing, and the raw materials stirring is even for the reaction is abundant, is of value to improving production quality.

Preferably, evaporating chamber and cooling chamber have been seted up to the cylinder body inside, evaporating chamber internally mounted has the puddler, the standing groove has been seted up on the evaporating chamber lateral wall, install the hot plate in the standing groove, the air vent has been seted up on evaporating chamber lateral wall top, the cooling chamber bottom is the circular cone structure, cooling chamber bottom fixed mounting has the discharging pipe, install the valve on the discharging pipe, produce steam through the hot plate heating, steam enters into the cooling chamber from the air vent and condenses, and the liquid after the condensation is poured out through the discharging pipe, is favorable to collecting the zinc salicylate fast.

The utility model has the advantages that:

1. according to the utility model, raw materials in the material storage box are poured into the quantitative box from the liquid outlet pipe, the whole weight of the quantitative box is increased, the whole quantitative box vertically slides downwards, the material blocking box on the top plate of the quantitative box slides downwards together until the material blocking box moves to the lower part of the liquid outlet pipe, the baffle plate slides forwards under the pushing of the first spring to block the pipe orifice of the liquid outlet pipe, the quantitative box stops moving downwards at the moment, the electromagnetic valve is electrified, raw materials enter the evaporation chamber from the material guiding pipe, the quantitative pouring of the raw materials is realized, two groups of quantitative assemblies are arranged, the quantitative setting of sodium salicylate raw materials and zinc sulfate raw materials can be respectively realized, the accurate adding of the dosage of the raw materials is realized, the preparation efficiency of zinc salicylate resin is improved, the next use is realized by pushing the pushing block to push the baffle plate back into the material blocking box under the pushing force of the second spring, the first sliding block is driven by the screw to vertically slide in the first guide plate, the first sliding block box moves in the vertical direction by the screw rod, the relative dosage of the material blocking box is realized, the relative dosage of the material blocking box and the raw materials is adjusted quickly.

2. According to the utility model, the second sliding block on the quantitative box slides in the second guide plate, so that stable sliding of the quantitative box is realized, the stability of the quantitative box is improved, the stirring rod rotates to drive the stirring blade to stir, the stirring blade is of an auger structure, raw materials at the bottom end can move to a high position, and are stirred vertically while being stirred horizontally, so that the raw materials are stirred uniformly, the reaction is complete, the production quality is improved, steam is generated by heating through the heating plate, the steam enters a cooling chamber from a vent hole to be condensed, and condensed liquid is poured out through the discharging pipe, thereby being beneficial to collecting zinc salicylate rapidly.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic perspective view of a first view;

FIG. 2 is a schematic perspective view of a dosing assembly;

FIG. 3 is a schematic view of a three-dimensional structure of a quantitative box;

FIG. 4 is a schematic diagram of the internal three-dimensional structure of the material blocking box;

fig. 5 is a schematic diagram of the internal perspective structure of the cylinder.

In the figure: 1. a support frame; 2. a cylinder; 3. a feed pipe; 4. a material guiding pipe; 5. an electromagnetic valve; 6. a quantitative box; 7. a feed chute; 8. a fixing frame; 9. a storage bin; 10. a liquid inlet pipe; 11. a liquid outlet pipe; 12. a first guide plate; 13. a first chute; 14. a first slider; 15. a material blocking box; 16. a moving groove; 17. a baffle; 18. a first spring; 19. a groove; 20. a pushing block; 21. a mounting plate; 22. a screw rod; 23. a knob; 24. a second guide plate; 25. a second chute; 26. a second slider; 27. a second spring; 28. a motor; 29. a stirring rod; 30. stirring the leaves; 31. an evaporation chamber; 32. a cooling chamber; 33. a placement groove; 34. a heating plate; 35. a vent hole; 36. a discharge pipe; 37. and (3) a valve.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, a zinc salicylate resin cooling device comprises a supporting frame 1, a cylinder body 2 is mounted on the supporting frame 1, two groups of quantitative components are mounted at the top end of the cylinder body 2, each quantitative component comprises a feeding pipe 3, a feeding pipe 4 penetrates through the feeding pipe 3, the feeding pipe 4 slides in the inner cavity of the feeding pipe 3, an electromagnetic valve 5 is mounted on the feeding pipe 4, a quantitative box 6 is mounted at the top end of the feeding pipe 4, a feeding groove 7 is formed in the top plate of the quantitative box 6, a fixing frame 8 is mounted on the top plate of the cylinder body 2, a storage box 9 is mounted on the fixing frame 8, a liquid inlet pipe 10 is mounted on the top plate of the storage box 9, a liquid outlet pipe 11 is of a square structure, the liquid outlet pipe 11 is positioned right above the feeding groove 7 of the quantitative box 6, a first guide plate 12 is mounted on the top plate of the quantitative box 6, a first chute 13 is formed in the first guide plate 12, the first chute 13 is of a cross structure, the first sliding chute 13 is internally provided with a first sliding block 14, one end of the first sliding block 14 is welded with a material blocking box 15, a movable groove 16 is arranged in the material blocking box 15, a baffle 17 is internally arranged in the movable groove 16, a first spring 18 is arranged between the baffle 17 and the inner wall of the movable groove 16, the front end of the baffle 17 is provided with a liquid outlet pipe 11, the area of the liquid outlet pipe is larger than that of a liquid outlet pipe 11 orifice, the side wall of the material blocking box 15 is provided with a groove 19, the groove 19 is internally provided with a push block 20, the push block 20 is fixedly connected with the side wall of the baffle 17, the top end of the first guide plate 12 is welded with a mounting plate 21, a screw rod 22 is rotatably arranged between the top plate of the cylinder body 2 and the mounting plate 21 through a bearing, the screw rod 22 penetrates through the first sliding block 14, threads are arranged on the first sliding block 14 and are matched with the screw rod 22 through the threads, the top end of the screw rod 22 penetrates through the mounting plate 21 and is welded with a knob 23, the top plate of the cylinder body 2 is provided with a second guide plate 24, a second chute 25 is formed in the second guide plate 24, a second sliding block 26 is assembled in the second chute 25, the second sliding block 26 is fixedly connected with the quantitative box 6, a second spring 27 is welded between the bottom plate of the quantitative box 6 and the top plate of the cylinder body 2, and the second spring 27 is sleeved on the periphery of the material guiding pipe 4; during operation, the existing zinc salicylate is prepared by a heating reaction of sodium salicylate and zinc sulfate in water, because the zinc salicylate resin cooling equipment cannot accurately add the dosage of raw materials, the efficiency of preparing zinc salicylate resin is too low and the quality of zinc salicylate resin can be affected, by installing two groups of quantitative components, the raw materials in the storage box 9 of the two groups of quantitative components are respectively provided with sodium salicylate raw materials and zinc sulfate raw materials, the raw materials in the storage box 9 are poured into the quantitative box 6 from a liquid outlet pipe 11, the whole weight of the quantitative box 6 is increased, a second sliding block 26 on the quantitative box 6 slides in a second guide plate 24, the whole quantitative box 6 vertically slides downwards, the quantitative box 6 compresses a second spring 27, a baffle plate 17 in the baffle box 15 slides downwards together under the pushing of a first spring 18 until the baffle box 15 moves below the liquid outlet pipe 11, the baffle plate 17 slides forwards under the pushing of the first spring 18, the mouth of the liquid outlet pipe 11 is blocked, the quantitative box 6 stops moving downwards, the bottom end of the electromagnetic valve 4 is opened, and the raw materials are discharged into the quantitative pipe 4 from the bottom end of the electromagnetic valve 6, and the quantitative box 4 is opened; the screw rod 22 is driven to rotate by rotating the knob 23, the screw rod 22 drives the first slide block 14 to vertically slide in the first guide plate 12, and the first slide block 14 drives the material blocking box 15 to move in the vertical direction, so that the relative position of the material blocking box 15 and the first guide plate 12 is adjusted, and the raw material dosage is adjusted; when using next time, promote pusher 20, push back baffle 17 into fender workbin 15, under the thrust of second spring 27, empty ration case 6 upwards moves, and two sets of ration subassemblies have been installed to this device, can carry out the ration setting to sodium salicylate raw materials and zinc sulfate raw materials respectively, have realized carrying out accurate interpolation to the dose of raw materials, are favorable to improving the preparation efficiency of zinc salicylate resin.

Referring to fig. 5, a motor 28 is installed on the top plate of the cylinder 2, an output shaft of the motor 28 penetrates through the top plate of the cylinder 2 and is fixedly provided with a stirring rod 29 through a coupling, a stirring blade 30 is installed on the stirring rod 29, the stirring blade 30 is of an auger structure, an evaporation chamber 31 and a cooling chamber 32 are arranged inside the cylinder 2, the stirring rod 29 is installed inside the evaporation chamber 31, a placing groove 33 is formed in the side wall of the evaporation chamber 31, a heating plate 34 is installed in the placing groove 33, a vent hole 35 is formed in the top end of the side wall of the evaporation chamber 31, the bottom end of the cooling chamber 32 is of a conical structure, a discharging pipe 36 is fixedly installed at the bottom end of the cooling chamber 32, and a valve 37 is installed on the discharging pipe 36; during operation, current zinc salicylate resin cooling arrangement produces steam through heating in the in-process of zinc salicylate preparation, and is collected through the condensation again, because the raw materials stirring is inhomogeneous, lead to the reaction insufficient, influence production quality, pour into evaporation chamber 31 through the raw materials, motor 28 operation, drive puddler 29 rotation, puddler 29 drives stirring vane 30 and stirs, because stirring vane 30 is auger structure, the raw materials that is located the bottom can remove the eminence, still vertical stirring has been carried out in the horizontal stirring, the intensive stirring has been realized, steam is produced through heating plate 34 heating, the steam is condensed in entering cooling chamber 32 from air vent 35, the liquid after the condensation is poured out through discharging pipe 36, the collection to zinc salicylate has been realized, the raw materials stirring is even, make the reaction abundant, be favorable to improving production quality.

According to the working principle, the existing zinc salicylate is prepared by a heating reaction of sodium salicylate and zinc sulfate in water, because the zinc salicylate resin cooling equipment cannot accurately add the dosage of raw materials, the efficiency of preparing zinc salicylate resin is too low and the quality of zinc salicylate resin can be affected, by installing two groups of quantitative components, the sodium salicylate raw materials and the zinc sulfate raw materials are respectively placed in a storage box 9 in the two groups of quantitative components, the raw materials in the storage box 9 are poured into a quantitative box 6 from a liquid outlet pipe 11, the whole weight of the quantitative box 6 is increased, a second sliding block 26 on the quantitative box 6 slides in a second guide plate 24, the whole quantitative box 6 vertically slides downwards, the quantitative box 6 compresses a second spring 27, a baffle plate 17 in the baffle box 15 slides downwards together under the pushing of a first spring 18 until the baffle box 15 moves below the liquid outlet pipe 11, the baffle plate 17 slides forwards under the pushing of the first spring 18, the mouth of the liquid outlet pipe 11 is blocked, the quantitative box 6 stops moving downwards, the bottom end of the electric conduction pipe 6 enters the electromagnetic valve 4 from the bottom end of the electromagnetic valve 31, and the raw materials are quantitatively poured into the electromagnetic valve 4 from the bottom end of the electromagnetic valve 4; the screw rod 22 is driven to rotate by rotating the knob 23, the screw rod 22 drives the first slide block 14 to vertically slide in the first guide plate 12, and the first slide block 14 drives the material blocking box 15 to move in the vertical direction, so that the relative position of the material blocking box 15 and the first guide plate 12 is adjusted, and the raw material dosage is adjusted; when the device is used next time, the pushing block 20 is pushed, the baffle 17 is pushed back into the material blocking box 15, under the pushing force of the second spring 27, the empty quantitative box 6 moves upwards, two groups of quantitative components are installed, sodium salicylate raw materials and zinc sulfate raw materials can be quantitatively arranged respectively, accurate addition of the raw materials is achieved, the preparation efficiency of zinc salicylate resin is improved, the existing zinc salicylate resin cooling equipment is used for preparing zinc salicylate, steam is generated through heating, condensation and collection are carried out, the production quality is affected due to insufficient reaction caused by uneven stirring of the raw materials, the raw materials are poured into the evaporation chamber 31, the motor 28 is operated, the stirring rod 29 is driven to rotate, the stirring rod 29 drives the stirring blade 30 to stir, the raw materials at the bottom end can move to a high position due to the fact that the stirring blade 30 is of a auger structure, vertical stirring is carried out while horizontal stirring is achieved, the heating plate 34 is used for heating to generate steam, the steam enters the cooling chamber 32 for condensation, the condensed liquid is discharged through the discharging pipe 36, the zinc salicylate is uniformly collected, the production quality is improved, and the production quality is improved.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (6)

1. The zinc salicylate resin cooling equipment is characterized by comprising a support frame (1), a cylinder body (2) is arranged on the support frame (1), two groups of quantitative components are arranged at the top end of the cylinder body (2), each quantitative component comprises a feeding pipe (3), a feeding pipe (4) is penetrated in each feeding pipe (3), each feeding pipe (4) slides in an inner cavity of each feeding pipe (3), an electromagnetic valve (5) is arranged on each feeding pipe (4), a quantitative box (6) is arranged at the top end of each feeding pipe (4), a feeding groove (7) is formed in a top plate of each quantitative box (6), a fixing frame (8) is arranged on the top plate of the cylinder body (2), a storage box (9) is arranged on the fixing frame (8), a liquid inlet pipe (10) is arranged on the top plate of the storage box (9), a liquid outlet pipe (11) is arranged at the bottom end of the storage box (9), each liquid outlet pipe (11) is of a square structure, each liquid outlet pipe (11) is positioned right above a groove (7) of the quantitative box (6), a first guide plate (12) is arranged on the top plate (6), a first guide plate (12) is arranged on the first sliding groove (13), the utility model discloses a liquid outlet pipe, including baffle box (11), baffle box (15), baffle box (16), baffle (17) are installed to first slider (14) one end welding, set up in baffle box (15) and remove groove (16), install first spring (18) between baffle (17) and the inner wall of removal groove (16), drain pipe (11) and area are greater than drain pipe (11) mouth of pipe area have been placed to baffle (17) front end.

2. A zinc salicylate resin cooling apparatus in accordance with claim 1, wherein: the side wall of the material blocking box (15) is provided with a groove (19), a pushing block (20) is assembled in the groove (19), and the pushing block (20) is fixedly connected with the side wall of the baffle plate (17).

3. A zinc salicylate resin cooling apparatus in accordance with claim 1, wherein: the utility model discloses a cylinder body, including cylinder body (2), first deflector (12), mounting panel (21) are welded on first deflector (12) top, install lead screw (22) through the bearing rotation between cylinder body (2) roof and mounting panel (21), lead screw (22) run through first slider (14), set up on first slider (14) screw thread and through screw thread and lead screw (22) cooperation slip, lead screw (22) top runs through mounting panel (21) and welds have knob (23).

4. A zinc salicylate resin cooling apparatus in accordance with claim 1, wherein: the cylinder body (2) is provided with a second guide plate (24), a second chute (25) is formed in the second guide plate (24), a second sliding block (26) is arranged in the second chute (25), the second sliding block (26) is fixedly connected with the quantitative box (6), a second spring (27) is welded between the bottom plate of the quantitative box (6) and the top plate of the cylinder body (2), and the second spring (27) is sleeved on the periphery of the material guide pipe (4).

5. A zinc salicylate resin cooling apparatus in accordance with claim 1, wherein: install motor (28) on cylinder body (2) roof, the output shaft of motor (28) runs through cylinder body (2) roof and has puddler (29) through shaft coupling fixed mounting, install stirring leaf (30) on puddler (29), stirring leaf (30) are auger structure.

6. A zinc salicylate resin cooling apparatus in accordance with claim 1, wherein: the utility model discloses a cooling device for the steam turbine, including cylinder body (2), evaporating chamber (31) and cooling chamber (32) have been seted up to cylinder body (2), evaporating chamber (31) internally mounted has puddler (29), standing groove (33) have been seted up on evaporating chamber (31) lateral wall, install hot plate (34) in standing groove (33), air vent (35) have been seted up on evaporating chamber (31) lateral wall top, cooling chamber (32) bottom is circular cone type structure, cooling chamber (32) bottom fixed mounting has discharging pipe (36), install valve (37) on discharging pipe (36).